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関連する概念動画

DNA Packaging00:58

DNA Packaging

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DNA Packaging00:58

DNA Packaging

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Chromatin Packaging01:32

Chromatin Packaging

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Each human somatic cell contains 6 billion base pairs of DNA. Each base pair is 0.34 nm long, meaning each diploid cell contains a staggering 2 meters of DNA. This long DNA strand is packed inside a nucleus measuring only 10-20 microns in diameter with the help of specialized DNA-binding proteins called histones. Together they form a compact DNA-protein complex called chromatin. The chromatin is further compacted into higher-order structures. The highest level of compaction is achieved during...
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Chromatin Packaging02:21

Chromatin Packaging

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Each human somatic cell contains 6 billion base-pairs of DNA. Each base-pair is 0.34 nm long, which means that each diploid cell contains a staggering 2 meters of DNA. How is such a long DNA strand packed inside a nucleus measuring only 10 - 20 microns in diameter? 
The chromatin
In combination with specialized DNA binding protein called Histones, the DNA double helix forms a compact DNA: protein complex called chromatin. The chromatin itself is further compacted into higher-order...
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Genomic DNA in Eukaryotes00:58

Genomic DNA in Eukaryotes

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Eukaryotes have large genomes compared to prokaryotes. To fit their genomes into a cell, eukaryotic DNA is packaged extraordinarily tightly inside the nucleus. To achieve this, DNA is tightly wound around proteins called histones, which are packaged into nucleosomes that are joined by linker DNA and coil into chromatin fibers. Additional fibrous proteins further compact the chromatin, which is recognizable as chromosomes during certain phases of cell division.
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DNA Isolation01:34

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DNA from cells is required for many biotechnology and research applications, such as molecular cloning. To remove and purify DNA from cells, researchers use various methods of DNA extraction. While the specifics of different protocols may vary, some general concepts underlie the process of DNA extraction.
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自分 の DNA を 整理 する ガイド

Job Dekker, Mitchell Guttman, Stavros Lomvardas

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    この要約は機械生成です。

    細胞の遺伝物質は ランダムではありません この会話では 核の組織化と 生物学的意義について考察します

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    科学分野:

    • ゲノミクス
    • 細胞生物学
    • 分子生物学

    背景:

    • 細胞核内の遺伝物質の空間的組織は 細胞機能の決定的要素である.
    • 核構造を制御するメカニズムを理解することは 細胞生物学にとって根本的なものです

    研究 の 目的:

    • 細胞核内の非ランダムな遺伝物質の組織化の原理と意味を探求する.
    • 核組織の分野における進行中の研究と重要な問題について議論する.

    主な方法:

    • 専門家による議論と最新の研究成果の統合
    • ゲノミクスと細胞生物学における主要な科学者の間での学際的な対話

    主要な成果:

    • 遺伝物質は精密に 核内で組織されていて ランダムに分布していません
    • この組織は遺伝子発現やその他の核過程を 調節する上で重要な役割を果たします

    結論:

    • 細胞の機能と活力には ゲノムの正確な空間的配置が不可欠です
    • 核の組織に関するさらなる研究は,基本的な生物学的過程に関する重要な洞察を約束します.